DA4091 FRM part i sample questions minibook

Use the following information to answer the next four questions: The following information is available regarding the portfolio performance of three investment managers: Manager Retur

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Top questions you must master to pass the Part I FRM® Exam

Preparing for the Part I exam is tough, but you can make life easier with an effective study

plan If you have yet to get a plan, Wiley’s adaptive Digital Exam Planner in our Silver and

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But first, here are some questions to test your knowledge of typical, fundamental topics that are likely to appear on the actual exam.

1 The minimum variance frontier most likely consists of:

A Individual assets only.

B Portfolios only.

C Individual assets and portfolios.

D Only risk-free assets.

Answer: B

Assets with low correlations can be combined into

portfolios that have a lower risk than any of the individual

assets in the portfolio The minimum variance frontier

consists of portfolios that minimize the level of risk for each

level of expected return

2 Compute her portfolio’s standard deviation, if the

correlation between the two assets equals 0.7.

A 8.05%

B 9.86%

C 7.06%

D 12.68%

Answer: D

[(0.32 × 0.122) + (0.72 × 0.02) + 2 (0.3) (0.7) (0.12) (0.1414)

(0.7)]0.5 = 12.68%

3 Use the following information to answer the next four

questions:

The following information is available regarding the

portfolio performance of three investment managers:

Manager Return Deviation Standard Beta

Market (M) 11% 24%

Risk-free rate 5%

I Manager B’s expected return is closest to:

A 9.20%

B 8.34%

C 10.40%

D 12.20%

Answer: D

Expected return = Rf + R (Rm – Rf) Expected return = 0.05 + 1.2 (0.11 – 0.05) = 12.20%

II Manager A’s Sharpe ratio is closest to:

A 0.51

B 0.40

C 0.20

D 0.68

Answer: A

Sharpe ratio = (RA – Rf) / RA = (0.19 – 0.05) / 0.27 = 0.5185

III Manager C’s Treynor ratio is closest to:

A 0.20

B 0.25

C 0.57

D 0.12

Answer: D

Treynor ratio = (RC – Rf) / RC = (0.16 – 0.05) / 0.9 = 0.1222

IV Manager C’s Jensen’s alpha is closest to:

A 5.60%

B 10.40%

C 8.5%

D 9.0%

Answer: A

Manager C’s expected return = Rf + R (Rm – Rf) = 0.05 + 0.9 (0.11 – 0.05) = 10.4%

Jensen’s alpha = 16% − 10.4% = 5.6%

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4 Darren Peters, FRM, has gathered information on all

the monthly returns of actively managed portfolios and

passive indices He is using multifactor models, of which

he has examined many Darren determines the optimal

number of factors using the R-squares for different

models

He selects a model that has a reasonable but small

number of factors He uses the difference in monthly

returns between the managed portfolios and the market

index represented by the S&P 500, represented as RTN, as

the dependent variable The independent variables are

the S&P 500 return less the 90-day T-bill rate represented

as MKT, the monthly returns to a passive portfolio of high

EPS stocks less the returns of a passive portfolio of low

EPS stocks represented by EPSS, and the monthly returns

to a passive portfolio of small cap stocks less the returns

of a passive portfolio of large cap stocks, represented by

LCSC.

The following results were derived for the historical data:

RTN = –.0025 + 15MKT – 08EPSS – 07LCSC

Which of the following is not a reason to support the case

for active portfolio management?

A Failure of the CAPM beta to explain returns

B Excess volatility in market prices

C The existence of market anomalies

D Efficient frontier theory

Answer: D

All are valid reasons to support the case for active portfolio

management except for the efficient frontier theory The

efficient frontier theory is the theory that all investors

allocate their money between the risk-free asset and the

tangency efficient portfolio

5 Assume that you are concerned only with systematic risk

Which of the following would be the best measure to use

to rank order funds with different betas based on their

risk-return relationship with the market portfolio?

A Treynor ratio

B Sharpe ratio

C Jensen’s alpha

D Sortino ratio

Answer: A

Systematic risk is the risk that can’t be diversified away

and the beta of our portfolio is:

βP = (ρPM * σP * σM) / σ2 where ρPM is the correlation coeffi

cient between the portfolio and the market, σp is the risk of

the portfolio, and σM is the risk of the market

In either case, beta explains the volatility of the portfolio

compared to the volatility of the market, which captures

only systematic risk.The Sharpe ratio is standardized by sigma, not beta, so the Treynor ratio is the correct ratio to

use in this case The Treynor formula is Tρ = [E(Rρ) – Rf] / βρ, which describes the difference between excess return over systematic risk—the beta—which is what the question asks

6 Ashley selected a sample of 20 stocks and calculated their mean return over a three-year period to be 4.25% Given that the sample standard deviation is 0.3% and assuming that the population is normally distributed, the 90% confi dence interval is closest to:

A 4.13% to 4.37%

B 4.22% to 4.44%

C 4.14% to 4.36%

Answer: A Since the population variance is not known, but the population is assumed to be normally distributed, and the

sample size is small we must use the t-distribution.

Standard error = 0.3 / (20)0.5 = 0.06708 Degrees of freedom = 20 − 1 = 19 For a 90% confi dence interval, we need 5% in either tail

The relevant t-score with 19 degrees of freedom is 1.7291.

Confidence interval

= 4.25% ± (1.7291 × 0.067%) = 4.13% to 4.37%

7 Alexis is conducting research on the stock market of an emerging economy She believes that the mean daily return on the market’s all-share index is statistically signifi cantly different from zero She randomly selects 50 stocks that are traded on the country’s stock exchange and calculates their average daily return to be 0.3% The index that comprises all the shares in the country has a daily standard deviation of 0.2% At the 5% level of signifi cance, Alexis would most likely:

A Reject the null hypothesis, and conclude that the mean daily return is not statistically significantly different from zero.

B Fail to reject the null hypothesis, and conclude that the mean daily return is not statistically significantly different from zero.

C Reject the null hypothesis, and conclude that the mean daily return is statistically significantly different from zero.

Answer: C

H0: μ = 0; Ha: μ ≠ 0

Since the population (index comprising of all shares traded

in the country) standard deviation is known, use the z-test.

This is a two-tailed test At the 5% level of significance, the

critical z-values for a two-tailed test are ± 1.96.

Test stat = {(0.003 − 0) / [(0.002) / (50)0.5]} = 10.607

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Since the test stat (10.607) is greater than the upper

critical value (+1.96), the null hypothesis is rejected Alexis

would conclude that the mean daily return is statistically

significantly different from zero

8 Use the following information to answer the next five

questions:

An analyst regresses the bid/ask spread (dependent

variable) for a sample of 1,900 stocks against the natural

log of trading volume (independent variable) The results

of the regression are provided below:

ANOVA SS

Regression 18.395

Residual 47.428

Coefficient Standard Error t-Statistic

Intercept 0.62941 0.026635 23.63094

Slope coefficient −0.05248 0.002941 −17.84427

I The coefficient of determination is closest to:

A 0.2795

B 0.3879

C 0.7205

Answer: A

Coefficient of determination = Explained variation / Total

variation Coefficient of determination = 18.395 / (18.395 +

47.428) = 0.2795

II The correlation coefficient (r) is closest to:

A 0.6228

B −0.5286

C 0.5286

Answer: B

Correlation coefficient = (Coefficient of determination)0.5

Correlation coefficient = 0.27950.5 = 0.5286

As the slope coefficient provided in the regression is a

negative figure, so the correlation coefficient (r) is −0.5286.

III The standard error is closest to:

A 0.0984

B 0.1581

C 0.0250

Answer: B

Standard error = [SSE / (n – 2)]0.5

Standard error = [47.428 / (1900 – 2)]0.5 = 0.1581

IV The F-stat is closest to:

A 0.3879

B 736.14

C 0.0014

Answer: B

F -stat = MSR / MSE = (RSS / 1) / [SSE / (n – k – 1)]

F-stat = (18.395 / 1) / [47.428 / (1900 – 1 – 1)] = 736.1413

9 Consider the following statements:

Statement 1: The lower the risk aversion coefficient, the lower the negative impact of risk on portfolio utility Statement 2: The fact that indifference curves are upward sloping suggests that investors experience diminishing marginal utility of wealth.

Which of the following is most likely?

A Only Statement 1 is correct.

B Only Statement 2 is correct.

C Both statements are incorrect.

D Neither is correct.

Answer: A Statement 1 is correct A lower risk aversion coefficient means that the effect of risk on portfolio utility will be lower

The fact that indifference curves are curved suggests that investors exhibit diminishing marginal utility of wealth As more risk is added to the portfolio, the increase in return required increases at an increasing rate The upward slope

of indifference curve tells us that investors are risk averse—

in order to be indifferent between two portfolios with different levels of risk, the high risk portfolio must offer a higher return as well

10 The chief risk officer of your firm has asked you to decide between buying a futures contract on an exchange and buying a forward contract directly in the OTC Space with the firm’s best client Both have the identical terms You find that the forward price is higher than the futures price What single factor acting alone would be a realistic explanation for this price difference?

A The asset is strongly negatively correlated with interest rates.

B The futures contract is more liquid and easier to clear.

C The forward contract counterparty has a higher default probability.

D The convenience yield on the forward contract is less than on the futures contract.

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Answer: A

Forward contracts do not have a daily settlement feature

and is the reason for the convexity impact on eurodollar

futures The futures contract has a “free” option on the

potential to earn the risk-free rate of return on the mark

to mark movement of the futures price This free option

impact—also called the convexity impact—is closely related

to both volatility of the futures and how closely negatively

correlated with interest rates the underlying asset is If the

futures contract moves higher in price, and you are long

the future (hence have an overnight gain), that gain will be

invested at lower rates

11 Sarah Carter is a trader in the arbitrage unit of a large

bank She finds that an asset is trading at USD 2,000, the

price of a 1-year futures contract on that asset is USD

2,025, and the price of a 2-year futures contract is USD

2,055 Assume that there are no cash flows from the asset

for two years If the term structure of interest rates is flat

at 1% per year, which of the following is an appropriate

arbitrage strategy?

A Short 2-year futures and long 1-year futures

B Short 1-year futures and long 2-year futures

C Short 2-year futures and long the underlying asset

funded by borrowing for 2 years

D Short 1-year futures and long the underlying asset

funded by borrowing for 1 year

Answer: C

The 1-year futures price should be 2000×e.01= 2020.10 The

2-year futures price should be 2000×e.01*2= 2040.40

The current 2-year futures price in the market is overvalued

compared to the theoretical price To lock in a profit, you

would short the 2 year futures, borrow USD 2000 at 1%,

and buy the underlying asset At the end of 2 years, you will

sell the asset at USD 2,055 and return the borrowed money

with interest, which would be 2,000×e.01*2= USD2040.40,

resulting in a USD 14.60 gain

12 You are examining the exchange rate between the

U.S dollar and the euro and are given the following

information regarding the USD/EUR exchange rate and

the respective domestic risk-free rates:

Current USD/EUR exchange rate is 1.35

Current USD-denominated 1-year risk-free interest rate

is 1% per year Current EUR-denominated 1-year risk-free

interest rate is 2% per year

According to the interest rate parity theorem, what is the

1-year forward USD/EUR exchange rate?

A 1.24

B 0.95

C 1.34

D 1.37

Answer: C

The forward rate, FT , is given by the interest rate parity

equation:

Ft=So×e(r−r f )T

where

So is the spot exchange rate,

r is the domestic (USD) risk-free rate, and

r f is the foreign (EUR) risk-free rate

T is the time to delivery

Substituting the values in the equation:

Ft =1.35 × e(0.01−0.02)=1.336

13 Jacquie Chan is an analyst with Donahue Management Inc She is studying value at risk as a means to measure and manage risk Jacquie believes that using a risk budgeting program based on VaR could significantly enhance SIM’s risk management processes When presenting her idea to senior members of the firm, Jacquie receives the following responses:

• Amanda Peters, Chief Market Strategist: We have

a solid process in place to determine the optimal asset allocation for various market conditions Risk budgeting is basically another way to conduct asset allocation.

• Kathy Hu, Chief Compliance Officer: We have guidelines in place that include principal limits, sensitivity limits, and leverage limits The thresholds set under a risk budget program accomplish the same thing.

• Thomas Archer, Director of Portfolio Management: We already use tools such as beta, standard deviation, and duration to determine risk These tools are widely used in the market and provide all the risk measurement we need.

Which of the following is the least effective response for Chan to use in countering Archer’s argument?

A When computed for fixed income portfolios, VaR uses interrelationships between different yield curves.

B VaR accounts for illiquidity, which may be present in larger positions.

C VaR is based on the current portfolio and does not require a large amount of historical data

for its computation.

D VaR is based on tracking error and does not require a specific index for its computation.

Answer: B VaR accounts for illiquidity, which may be present in larger positions Accounting for liquidity is actually a weakness

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of VaR On its own, VaR fails to distinguish the higher risk

of a position that is too large for market liquidity versus a

position that could easily be liquidated The other answers

all distinguish VaR from traditional risk measures: standard

deviation is based on historical data and may not reflect

the risk characteristics of a current portfolio, VaR does not

require a specific index for its calculation, unlike beta, and

VaR accounts for interrelationships between different yield

curves

14 Ben Johnson, FRM, serves as a consultant to numerous

risk management firms He is currently advising

RST Corporation on the implementation of a risk

management program RST is a newly formed company

with little expertise in risk management, and has hired

Johnson to train its staff.

A Scenario analysis is useful for allowing risk managers

to assess secondary consequences of changes in risk

factors.

B Scenario analysis is useful for assessing exposure to

changes in the correlation between the component

securities.

C Scenario analysis is useful for discovering flaws in the

risk measurement model and/or its assumptions.

D Scenario analysis is useful for assessing exposure to

changes in the volatility of the component securities.

Answer: A

Scenario analysis is useful for allowing risk managers to

assess secondary consequences of changes in risk factors

The incorrect statement is that scenario analysis is

useful for allowing risk managers to assess secondary

consequences of changes in risk factors Scenario analysis

allows the managers to assess the impact of changes to

various inputs into the risk measurement model However,

scenario analysis does not do a good job of assessing

secondary effects of changes in the risk factors

15 You are discussing dynamic hedging with the chief risk

officer who oversees all nonlinear risk at the enterprise

level.

The debate is the incremental value of how often to hedge

nonlinear option greeks under conditions of large market

moves when the Federal Reserve continues to raise rates

in 2016.

Before you can consider the transactional cost of

hedging, you want to consider the incremental impact of

the addition of an option hedge to the initial gamma and

delta of the portfolio.

You have recently rebalanced the portfolio and added a

new hedge consisting of 3,000 standard, exchange-traded

equity option contracts to enforce a gamma-neutral

position after a large market move.

With the addition of the gamma hedge, the original delta-neutral position also changes, so what trade must you do

to restore delta neutrality after gamma hedging?

Assume a delta of 0.75 for the options.

A Sell 225,000 shares of the underlying asset.

B Buy 2,250 shares of the underlying asset.

C Sell 500,000 shares of the underlying asset.

D Buy 5,000 shares of the underlying asset.

Answer: A The addition of the 3,000 long options to bring about gamma neutrality disturbed the original delta neutral position of the portfolio

Since 3,000 options have been added, (3,000)(0.75) = 2,250 contracts of the underlying must be sold to restore delta neutrality to the portfolio or 225,000 shares because the problem states these are standard (100 shares per contact) Quick note: In the real world, the delta-gamma balance changes by the second All GARP wants you to know is that

“hedging” always has secondary impacts that need to be considered The argument could be, after this delta hedge, what does the gamma hedge look like, and go back and forth to infinity Just understand that nothing happens in a vacuum but more important why this changes

16 Albert Morrison is preparing a seminar on the term structure of interest rates.

In preparation for the seminar, Albert has taken the following sample data on daily yield changes for 10 year Treasuries (Note: given yields are intentionally off market.)

Date Yield

01/11/2016 5.255 02/11/2016 5.262 03/11/2016 5.266 04/11/2016 5.311 05/11/2016 5.308 06/11/2016 5.299

Albert calculates the sum of the squared deviations from the mean to be 0.6405.

Calculate the daily standard deviation of the data in the table.

A 0.3812

B 0.3579

C 0.4002

D 0.4210

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Answer: C

Note: This is at the upper limit if a tricky question and

I almost hesitate to include it Referring to the “sum of

squared deviations from the mean” requires you to know

the formula for variance and standard deviation It also

requires that you know you are calculating the change in

rates, not just the average level of rates The first data point

isn’t January of 2016 but rather a 1.3 basis point change in

rates at the end of February of 2016 This also means we

have 5 sample points of rate changes Since you are told

this is a sample, we have N – 1 in the denominator

Daily standard deviation

= √(sum of the squared deviations from mean / (N −1))

= √(0.6405 / (5−1))

= √(0.6405 / 4)

= √(0.1601)

= 0.4002

Good luck and stay on track

Remember, good preparation is essential to success.

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